Mutual fund and method for allocating assets in a mutual fund

ABSTRACT

In an embodiment, an asset allocation mutual fund comprises assets invested, at any one time, substantially 100% in one of stocks, bonds or cash equivalents. As market conditions change, as indicated by changes in the output of stock and bond models, substantially all of the assets may be shifted from one of these three asset classes to another. A method for allocating assets in a mutual fund, among the three asset classes, according to one embodiment includes, first determining whether a buy signal has been given on stocks using a stock model. If a buy signal has been given on stocks, substantially all assets of the mutual fund may be invested in stocks. If a buy signal on stocks is not indicated, it is determined whether a buy signal has been given on bonds using a bond model. If a buy signal has been given on bonds, substantially all assets of the mutual fund may be invested in bonds. If a buy signal on bonds is not indicated, substantially all assets of the mutual fund may be invested in cash equivalents. The method may be repeatedly queried over time to consider re-allocation of assets.

This application claims the benefit of U.S. Provisional Application No. 60/644,711, filed Jan. 18, 2005, the contents of which are incorporated herein by reference.

BACKGROUND

1. Field

This invention relates to mutual funds and methods for allocating assets in mutual funds.

2. Description of Related Art

Mutual funds provide advantages for investors including professional management and diversification of investments. Each investment in a mutual fund typically buys a share of a diversified portfolio of assets. The portfolio may be managed by investment professionals, relieving the individual investor of the need to make individual stock or bond selections.

Conventional asset allocation mutual funds tend to use conventional asset allocation strategies in which fund assets are allocated among three asset classes, stocks, bonds and cash equivalents, at one time. For example, a mutual fund may include 60% of fund assets invested in stocks, 30% of fund assets invested in bonds and 10% of fund assets invested in cash equivalents. These asset allocation percentages may be modified somewhat over time as market conditions change, but some allocation to all three asset classes is maintained. Therefore, substantially less than 100% of total fund assets are invested in any one asset class at one time.

Although conventional asset allocation strategies help to minimize risk by diversifying investments, these strategies are still susceptible to wide fluctuations in returns. Despite diversification, investors in conventional mutual funds risk incurring losses and negative returns, particularly in bear markets. Additionally, many conventional mutual funds using conventional asset allocation strategies fail to outperform major benchmark indices, such as the S&P 500 Stock Index, over long periods of time.

Accordingly, there is a need for an improved asset allocation mutual fund and a method for allocating assets in mutual funds that provide a positive rate of return every calendar year. Additionally, there is a need for an asset allocation mutual fund and a method for managing assets in mutual funds that provide greater long-term returns than the S&P 500 Stock Index, but with less risk.

BRIEF DESCRIPTION OF THE DRAWINGS

The utility of the embodiments of the invention will be readily appreciated and understood from consideration of the following detailed description of the embodiments of this invention, when taken with the accompanying drawings, in which same numbered elements are identical or similar.

FIG. 1 illustrates an object diagram of a mutual fund according to one embodiment; and

FIG. 2 illustrates a flow diagram representing a method for allocating assets in a mutual fund according to one embodiment.

DETAILED DESCRIPTION

In an embodiment, an asset allocation mutual fund comprises assets invested, at any one time, substantially 100% in one of stocks, bonds or cash equivalents. As market conditions change, confirmed by changes in the outputs of certain stock and bond models, substantially all of the assets may be shifted from one of these three asset classes to another. A method for allocating assets in a mutual fund, among the three asset classes, according to one embodiment, includes first determining whether a buy signal has been given on stocks using a stock model. If a buy signal has been given on stocks, substantially all assets of the mutual fund may be invested in stocks. If a buy signal on stocks is not indicated, it is determined whether a buy signal has been given on bonds using a bond model. If a buy signal has been given on bonds, substantially all assets of the mutual fund may be invested in bonds. If a buy signal on bonds is not indicated, substantially all assets of the mutual fund may be invested in cash equivalents. The method may be repeatedly queried over time to consider re-allocation of assets.

Diversification among asset classes, for the first time, is provided only over time, and not at any instant, as in conventional asset allocation funds. That is, conventional asset allocation funds spread their assets over all asset classes at any given time. For example, at any given time, a conventional asset allocation fund may have its assets 60% in stocks, 30% in bonds, and 10% in cash equivalents. These percentages may be modified somewhat as market conditions change, but some allocation to all three asset classes is maintained at all times, and provides diversification over all asset classes at all times. The present embodiments, however, for the first time take an all or nothing approach for asset allocation at any instant, for example, investing 100% in stocks now, but 100% in bonds later, and then 100% in cash equivalents. In this way, the present embodiments seek diversification of asset classes over time, but not at any instant. As a result, superior investment returns are sought.

FIG. 1 illustrates an object diagram of a mutual fund 100 (fund) according to one embodiment. The fund's principal investment strategy may be to shift assets 110 in the fund 100 among stocks 120, bonds 130, or cash equivalents 140. It is anticipated that at any given time 100% or substantially all, such as, for example, about 95% or more, of the fund assets 110 may be invested in (1) stocks 120, (2) bonds 130, or (3) cash equivalents 140.

In this embodiment, at a given time, substantially all, or 100%, of the fund assets 110 may be invested in stocks 120, either directly or through the use of stock-based, exchange-traded funds (ETFs). For example, all of the fund assets 110 may be invested in an ETF tracking the S&P 500, or in a group of ETFs, or the fund assets 110 may be directly invested in stocks. The stocks 120 in the ETFs in the stock asset class typically may represent the large-capitalization sector of the U.S. equity market, but may at times represent other sectors of the U.S. equity market. ETFs, are, with a few exceptions, open-end investment companies that trade throughout the day. Almost all ETFs trade on the American Stock Exchange or other exchanges. More specifically, ETFs typically track a market index or specific sectors of the stock or bond markets. Because they trade like a stock, ETFs offer trading flexibility generally desired by both individuals and institutions. Like any security that trades on an exchange, the value of the underlying securities is a major factor in determining an ETF's price. The price of an ETF is generally determined by supply and demand. The fund 100 may value any ETF in its portfolio at its market price, which typically approximates its net asset value (NAV), although there may be times when the market price and NAV vary to a greater extent. Thus, ETFs do not necessarily trade at the net asset values of their underlying securities.

In this embodiment, at a given time, substantially all, or 100%, of the fund assets 110 may be invested in bonds 130, such as, for example, investment-grade bonds, through either direct investment or ETFs. For example, all of the fund assets 110 may be invested in an ETF tracking a bond index, or in a group of ETFs, or the fund assets 110 may be directly invested in bonds. Investment-grade bonds 130 may include, for example, securities issued or guaranteed by the U.S. government, its agencies and instrumentalities, as well as securities rated or subject to a guarantee that is rated within the rating categories listed by at least one of the following rating agencies in Table 1:

TABLE 1 Long-Term Short-Term Rating Agency Debt Securities Debt Securities Moody's Investors At least Baa3 At least Prime-3 or Service MIG 3/VMIG 3 Standard & Poor's At least BBB- At least A-3 or SP-2 Ratings Group Fitch Ratings At Least BBB- At least F3 Dominion Bond At least BBB low At least R-2 low Rating Service If unrated by these agencies, the fund 100 may determine that the securities are of equivalent investment quality.

In this embodiment, at a given time, substantially all, or 100%, of the fund assets 110 may be invested in cash equivalents 140, such as, for example, money market instruments. The money market instruments included in the fund's portfolio may be investment-grade, U.S. dollar-denominated debt securities that have remaining maturities of one year or less. They may carry either fixed or variable interest rates and may include, but are not limited to, any of the following: obligations of the U.S. government, its agencies and instrumentalities; repurchase agreements collateralized by the foregoing obligations; commercial paper or other short-term corporate obligations; certificates of deposit; bankers acceptances; money market funds; short-term investment funds; variable rate-demand notes; and other suitable obligations.

In this embodiment, the decision to shift substantially all of the fund assets 110 among the three asset classes of stocks 120, bonds 130, or cash equivalents 140, may be made by a decision algorithm described in FIG. 2 hereof, which uses a stock model and a bond model as discussed below. Stock and bond models provided by third party vendors, or other investment models may be used with the embodiments described herein. For example, a stock model may be used that outputs an index of stock market bullishness of 0% to 100%. Then an output signal over a given percentage X % may be taken as a “buy” signal, and an output signal at or below X % may be taken as a “sell” or “don't buy” signal. Alternatively, the model may simply output directly a “buy” or “sell”/“don't buy” signal.

Also, for example, a bond model may be used that outputs an index of bond market bullishness of 0% to 100%. Then an output signal over a given percentage Y % may be taken as a “buy” signal, and an output signal at or below Y % may be taken as a “sell” or “don't buy” signal. Alternatively, the model may simply output directly a “buy” or “sell”/“don't buy” signal.

In an embodiment, the stock and bond models may use technical analysis of market and economic data to generate their outputs, or use other approaches, such as fundamental analysis.

FIG. 2 illustrates a flow diagram representing a method for allocating assets in a mutual fund among the three classes of assets, stocks, bonds and cash equivalents, according to this embodiment. A stock model may be reviewed in 210 to determine in 220 if a buy signal is given for stocks. A buy signal may be indicated based on a data point derived from the stock model. The buy signal may change as conditions change and are reflected in changed output data in the stock model. If a buy signal has been given for stocks, substantially all, or 100%, of the fund assets 110 may be invested in stocks or stock ETFs, in 230.

If the stock model does not indicate a buy signal on stocks, then a bond model may be reviewed in 240 to determine in 250 if a buy signal is given for bonds. A buy signal may be indicated based on a data point derived from the bond model. The buy signal may change as conditions change and are reflected in changed output data in the bond model. If a buy signal has been given for bonds, substantially all, or 100%, of the fund assets 110 may be invested in bonds, such as investment-grade bonds or investment-grade bond ETFs, in 260. If the bond model does not indicate a buy signal on bonds, substantially all, or 100%, of the fund assets 110 may be invested in cash equivalents, such as short-term, high-quality money market instruments or a money market fund, in 270. The algorithm in FIG. 2 may be queried repeatedly at preset cycles, such as for example, daily, weekly, monthly, quarterly, or irregular cycles, or may be queried on an event-driven basis, such as for example, in response to significant changes in various financial indices, to determine if the fund assets 110 should be re-allocated due to changed conditions.

In one embodiment, the decision points at 220 and 250, based on the stock and bond models, are based on the concept that stocks or bonds should be purchased only when they appear to offer superior returns, and that they should be sold when they no longer appear to offer superior returns. In one embodiment, the key concepts used in arriving at the decision points may be (1) a strong desire to avoid losses, (2) the desire to invest in the markets only when they appear to offer superior returns, (3) the desire to have a disciplined, objective decision-making process using time-tested buy/sell rules, and (4) the belief that using moving averages, momentum indicators, and other internal market indicators enhances the possibility of success.

Fund assets 110 may be actively and frequently traded to implement the fund's principal investment strategy. During times when fund assets 110 are being switched from one asset class to another, fund assets 110 may be spread between the new class and the previous class for a brief period of transition. Net additions or subtractions of fund assets 110 from the fund 100 may lead to transition amounts passing through the cash equivalents class for a short period, while substantially all of the remaining fund assets 110 are invested in one of the other asset classes.

The fund's portfolio turnover rate may vary from year to year depending on the frequency of the investment allocation decisions made.

In one embodiment, a manager (not shown) may provide investment management services to the fund 100 pursuant to an investment advisory agreement. Under the agreement, the manager may be responsible for managing the business and affairs of the fund 100, including administration, shareholder servicing, and distribution services. To compensate the manager for its services, the fund 100 may pay the manager a management fee, which may be comprised of a base fee and a performance adjustment that may increase or decrease the base fee depending upon the performance of the fund 100 relative to the performance of a benchmark index, such as the Lipper Flexible Portfolio Funds Index. The base fee may be accrued daily and paid on a monthly basis. The performance adjustment may be calculated monthly by comparing the fund's performance to that of the benchmark index over a specified performance period. In one embodiment, the total management fee may be capped at 1.00% of the fund's average annual net assets.

The diagrams depicted herein are provided by way of example. There may be variations to these diagrams or the operations described herein without departing from the spirit of the invention. For instance, in certain cases, the operations may be performed in differing order, or operations may be added, deleted or modified.

One or more computers may be used to keep the books and records that may be necessary or convenient for the present invention, and its various embodiments, and to issue reports, periodically or occasionally, for the management or monitoring of the same. For example, a database may be maintained for each investor account in the mutual fund, showing for the account the NAV, the distributions made for the year and to be made, and other data. Databases may also be maintained showing the total investments of the assets of the fund and their performance. The stock model and the bond model may also be executed by a computer, and be provided data input by a computer system, and the models' outputs may be communicated and stored by a computer, including any stock buy signals, and any bond buy signals. Periodic or occasional reports may be generated, electronically or in hardcopy, for any of the information in such databases, for the benefit of individual investors in the fund, for the fund investment managers, or for other parties.

While the invention has been described in relation to certain embodiments, it will be understood by those skilled in the art that other embodiments, and modifications to the disclosed embodiments, may be made without departing from the spirit and, scope of the invention. Changes may be made, within the purview of the appended claims, without departing from the scope and spirit of the invention in its aspects. Thus, it should be understood that the above-described embodiments have been provided by way of example rather than as a limitation of the invention and that the specification and drawing(s) are, accordingly, to be regarded in an illustrative rather than a restrictive sense. As such, the invention is not intended to be limited to the embodiments shown above but rather is to be accorded the widest scope consistent with the principles and novel features disclosed in any fashion herein. 

1. A computer implemented method for allocating assets in a mutual fund among a stocks asset class, a bonds asset class, and a cash equivalents asset class, comprising: determining in a computer system first whether a buy signal has been given for stocks using a stock model queried on a change in financial indices; investing all assets of the mutual fund in stocks if a buy signal has been given for stocks using the computer system; if a buy signal for stocks is not indicated, determining in the computer system second whether a buy signal has been given for bonds using a bond model queried on the change in financial indices; investing all assets of the mutual fund in bonds if a buy signal has been given for bonds using the computer system; and if a buy signal for bonds is not indicated, investing all assets of the mutual fund in cash equivalents using the computer system, wherein at any given time, except during a process of transitioning assets in the mutual fund from one asset class to another, all assets in the mutual fund reside in only one asset class.
 2. The method of claim 1, further comprising querying the method steps on a cyclical basis.
 3. The method of claim 2, wherein the cyclical basis comprises one of a daily, weekly, monthly, quarterly and irregular cycle.
 4. The method of claim 1, further comprising querying the method steps on an event-driven basis.
 5. The method of claim 1, wherein the step of investing in stocks comprises investing directly in stocks.
 6. The method of claim 1, wherein the step of investing in stocks comprises investing in stock-based, exchange-traded funds.
 7. The method of claim 1, wherein the bonds comprise investment-grade bonds.
 8. The method of claim 7, wherein the step of investing in bonds comprises investing directly in bonds.
 9. The method of claim 7, wherein the step of investing in bonds comprises investing in bond-based, exchange-traded funds.
 10. The method of claim 1, wherein the cash equivalents comprise money market instruments.
 11. The method of claim 10, wherein the money market instruments comprise investment-grade, U.S. dollar-denominated debt securities that have remaining maturities of one year or less.
 12. The method of claim 11, wherein the money market instruments comprise at least one of” obligations of the U.S. government, its agencies and instrumentalities; repurchase agreements collateralized by obligations of the U.S. government, its agencies and instrumentalities; commercial paper or other short-term corporate obligations; certificates of deposit; bankers acceptances; money market funds; short-term investment funds; and variable rate-demand notes. 